ES2513815T3 - Public streetlight with solar powered LED with automatic light control - Google Patents

Abstract

Public lamppost with solar powered LED with automatic light control, comprising a solar photovoltaic panel (1), a brightness / dark detection sensor (2), a lamp post (3), an LED lamp (5) , an address or panel signaling with LED (6), a base (4) with a storage battery per accumulator (8) inside, a central controller (9), an infrared human body detector (7), in which the characteristics are that the photovoltaic solar panel (1) is mounted on the upper end of the lamp post (3), the direction signaling or panel with LED (6) is mounted on the lamp post (3), the storage battery pack per accumulator (8) and the central controller (9) are located in the base (4), the infrared human body detector (7) and the LED lamp (5) are mounted on the crossbar (31) of the lamp post, and a plurality of LEDs (63) are arranged on matrix so that they constitute the characters teres or markings on the direction or panel signaling with LED (6), said brightness / dark detection sensor (2) is connected to the central controller (9), said infrared human body detector (7) is connected to the central controller (9), a solar photovoltaic panel (61) is installed in the direction or panel signaling, said solar photovoltaic panel (1 and 61) collects solar energy and when the light is turned on at night, the photovoltaic panel ( 61) continues to collect light energy from the LED lamp (5), and the photovoltaic panel (1) can be replaced by another kind of energy, and said LED (5) and LED (63) can be replaced by LED chips or any other lighting component

Description

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DESCRIPTION

Public streetlight with solar powered LED with automatic light control

Technical field

This invention relates to a solar-powered LED lamppost and more particularly to a LED lamppost, which has a function of self-adjusting the brightness and darkness of the directional signaling or panel or light box, and can use the solar energy as a source of energy.

Background Technique

So far, most of the street lamps use light bulbs and generic supplies. There are also examples of conversion of solar energy into a generic power supply for streetlamps. Because the energy consumption of the generic lamp is considerably high, the solar energy collected during the day cannot feed overnight and a generic energy is needed as a supplement. Moreover, the lamp is kept running all night, which shortens the life of the bulb. Thus, the current street lamps do not meet the goal of 100% energy savings. The LED has the advantages of a long service life, high luminous flux, no radiation, shock support and low energy consumption. It belongs to the ecological lighting with energy saving and can comply with the current cuts in street lamps. In addition, the direction signs or guidance panels on the roads are made of reflective materials, which need to function by reflecting external light, such as street lamps. Electronic newsletter panels or some commercial panels need to mount a vertical stand. All this can sometimes cause inconvenience.

Document CN2581804Y describes a public streetlight powered by solar energy with automatic light control, comprising a solar photovoltaic panel, a lamp post, a lamp, a panel, a base with a storage battery per accumulator inside, a controller central. The characteristics are that the solar photovoltaic panel is mounted on the upper end of the lamp post, the panel is mounted on the lamp post, the storage battery pack per accumulator and the central controller is placed at the base, the lamp is Rides on the crossbar of the lamp post.

Description of the invention

It is, therefore, an objective of the invention, to solve the current technical deficiencies or problems and to provide a kind of ecological streetlight, powered by solar energy, that has panels or direction signs or light boxes with LED lighting and that has Long service life. Public lighting can be used on roads or in residential areas.

It is another object of the invention to provide a brightness / darkness detection sensor, which will detect the brightness / darkness, by sending signals to the central controller, to automatically turn the public lamp on or off.

It is another object of the invention to provide a detector of the human body, which will send signals to the central controller, to adjust the light to a low brightness state when it detects that there is no one in the detection area, or to adjust the light to a state High brightness when it detects that there is someone in the detection area. Because the brightness of the light can change, it reduces energy waste and makes good use of the solar energy collected during the day while no additional energy is needed. Because the life of the LED will not be influenced by the change in brightness, this globally increases the life of the lamp.

It is another object of the invention to install the direction signal or panel or light box on the lamp post.

These objectives are achieved by a solar powered public street lamp with automatic light control according to claim 1.

Within the invention, the photovoltaic panel collects the solar energy and when it turns on the light during the night, the photovoltaic panel on the directional signaling or panel or light box continues to collect energy from the LED light. The solar module will charge the storage battery through a diode D1, switch K2, normally closed terminal; When the central controller detects that the battery storage is complete, it will connect switches K2 and K1, cut the charging circuit and connect the R load, protecting battery storage from overload.

Within the invention, the brightness / darkness detection sensor can configure the brightness / darkness threshold value. When the darkness threshold value is satisfied, a signal will be sent to the central controller, to connect the K3 switch. Then the power is switched on, illuminating the LED lamp and the direction signal or panel or light box with low brightness and low light power. When the brightness threshold value is satisfied, a signal will be sent to the central control, to disconnect the K3 switch. Then the power of the lamp is turned off.

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Within the invention, the human body detector is used to detect a human body. When someone is in the detection area, the detector will automatically send a signal to the central controller, the controller will adjust the voltage and current of the DC / DC converter, and the LED lamp and LEDs on the directional signal or panel or box light will change to a high brightness state; When someone is outside the detection area, it will return to the low brightness state. As time goes by, the storage battery capacity drops, the central controller will adjust the voltage and current of the DC / DC converter until the K3 switch is disconnected and the R charge is connected, which will prevent damage to the storage battery by excessive discharge.

Within the invention, the LED can be replaced by an LED chip or any other lighting component. The invention can use generic power when the solar module is removed and relocate the brightness / darkness detection sensor at the top of the lamp post.

In this invention the energy saving LED is used as a source of illumination and the human body detector is installed. When there is no one, especially in the middle of the night, the light can be adjusted to a low brightness state. Because of this, energy is saved, the solar energy collected during the day is sufficient for the whole night without the need for other supplementary energy. And due to the brightness / dark detection sensor, the lamppost can turn on / off automatically, with few human resources being needed to handle this aspect every day.

For the best understanding of said invention, the objectives, characteristics and advantages of said invention can be illustrated in detail through the drawings and embodiments.

Brief description of the drawings

FIG. 1 is a graphic of the structure of a public street lamp with solar-powered LED with automatic light control. FIG. 2 is the circuit diagram of a public lamp with solar powered LED with automatic light control. FIG. 3 is a graphic of the structure of a public street lamp with generic power LED with automatic light control. FIG. 4 is a graph of the structure of the realization of a public lamp with solar powered LED with automatic light control. FIG. 5 is a graphic of the structure of another better embodiment of the solar powered public street lamp with automatic light control.

In these figures, 1. Photovoltaic solar panel; 11. Solar module / solar panel; 2. Glow / dark detection sensor;

3. Lamp post; 31. Crossbar of the lamp post; 4. Base; 5. LED lamp; 51. LED; 6. Direction signage or panel or LED light box; 7. Human body detector; 8. Storage battery by accumulator; 9. Central controller; 10. DC / DC converter; 61. Photovoltaic solar panel; 62. Brightness / darkness detection sensor; 63. LED.

Best embodiment of the invention

It is shown in FIGS. 1 and 2, the invention is composed of a photovoltaic solar panel (1), a brightness / dark detection sensor (2), a lamp post (3), an LED lamp (5), a direction or panel signaling or light box with LED (6), a base (4) with a storage battery per accumulator (8) inside, a central controller (9) and a human body detector (7). The features are that the photovoltaic solar panel

(1) it is mounted on the upper end of the lamp post (3), the direction signal or panel or light box with LED (6) is mounted on the lamp post (3) or the lamp post is designed ( 3) itself to be the address or panel or light box signaling, the storage battery assembly per accumulator (8) and the central controller (9) are located in the base (4), the human body detector (7) and the LED lamp (5) are mounted on the crossbar (31) of the lamp post, and a plurality of LEDs (63) are arranged on matrix so that they constitute the characters or marks of the direction signaling or panel or light box with LED (6).

Said photovoltaic solar panel (1 and 61) collects solar energy and when the light is turned on at night, the photovoltaic panel (61) continues to collect energy from the light of the LED lamp (5). The solar module (11) will charge the storage battery (8) through diode D1, switch K2, normally closed terminal; When the central controller (9) detects that the storage battery is full, it will connect switches K2 and K1, cut the charging circuit and connect the load R, protecting the storage battery (8) from overload.

Said central controller (9) can set the on / off time or set a time, as, after 12 o'clock at midnight, the central controller (9) will send a signal to alter the voltage and current of the dc / converter cc (10), and the LED lamp (5) and the LEDs (63) in the direction signal or panel or light box (6) will go to a low brightness state. Said central controller (9) can also send and receive wireless data.

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A generic feed or other kind of feed such as wind energy can also be used in the invention.

Within the invention, the brightness / darkness detection sensor (2) can be installed in both the photovoltaic solar panel (1) and the base (4). The brightness / darkness detection sensor (2) can set the brightness / darkness threshold value. When the darkness threshold value is satisfied, the signal will be sent to the central controller (9), to connect the K3 switch. Then the power is on, illuminating the LED (51) in the LED lamp (5) and the LED (63) in the direction signal or panel or light box (6) with low brightness and low light power. When the brightness threshold value is satisfied, the signal will be sent to the central controller (9), to disconnect the K3 switch. Then the power to the lamppost is disconnected.

Within the invention, the human body detector (7) is used to detect the human body. When someone is in the detection area, the detector (7) will automatically send it to the central controller (9), the controller will adjust the voltage and current of the DC / DC converter (10), and the LED lamp (5) and the LED (63) in the direction signal or panel or light box will be passed to a high brightness state; When someone is outside the detection area, then it will return to a low brightness state. When time passes, the storage capacity of the battery (8) decreases, the central controller (9) will adjust the voltage and current of the DC / DC converter (10) until the disconnection of the K3 switch and the connection of the R load , which will prevent damage to the storage battery from excessive discharge.

Within the invention, the LED (51 and 63) can be replaced by an LED chip or any other lighting component.

It is shown in FIG. 3, the invention removes the photovoltaic solar panel (1) and the generic supply is directed from the base (4). The brightness / darkness detection sensor (2) is installed on the top of the lamp post (3).

It is shown in FIG. 4 the other embodiment of the invention, comprising: a direction signal or panel or light box with LED (6), a photovoltaic solar panel (61), a brightness / darkness detection sensor (62), LED (63 ), lamp post (3), base (4), human body detector (7), storage battery per accumulator (8), central controller (9). In areas such as residential blocks, central gardens or green passages in buildings, where the need for lighting is relatively low, the LED lamp (5) can be eliminated while a plurality with LED (63), which are arranged in a matrix so that constitute the characters or marks in the LED address signage or panel or light box (6), they can provide the illumination on them. The features are: the solar photovoltaic panel (61), brightness / dark detection sensor (62), human body detector (7), are installed on the directional signaling or panel or light box (6), and the Central controller (9) is installed inside the base (4). The theory of electricity is the same as in the first embodiment illustrated in Figures 1 and 2.

It is shown in FIG. Another better embodiment of the invention, comprising: a photovoltaic solar panel (1), LED lamp (5), LED (51) in the LED lamp (5), brightness / darkness detection sensor (2), detector of the human body (7), storage battery per accumulator (8), central controller (9) in the base (4). The characteristics are: said photovoltaic solar panel (1) is installed in the base (4), said LED lamp (5) is made of a transparent or soft translucent material, which is installed on the sides of the base (4). As in the embodiment, the solar-powered LED lamppost can be installed on the side of the road and in any place where lighting is needed.

Said invention evolves and progresses in its practical value and fulfills the need for a new type of lighting market, which is ecological, energy saving, elegant in appearance and suitable for mass production. While what has been considered to be the preferred embodiment of the invention has been shown and described above, it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the scope of the invention such as defined in the appended claims.

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Claims (2)

E06722437 10-09-2014 1. Public street lamp with solar powered LED with automatic light control, comprising a panel solar photovoltaic (1), a brightness / dark detection sensor (2), a lamp post (3), an LED lamp (5), 5 a direction signaling or panel with LED (6), a base (4 ) with one storage battery per battery (8) inside, a central controller (9), an infrared human body detector (7), in which the characteristics are that the photovoltaic solar panel (1) is mounted on the upper end of the lamp post ( 3), the address or panel signaling with LED (6) is mounted on the lamp post (3), the storage battery pack per accumulator (8) and the central controller (9) are located on the base (4 ), the infrared human body detector 10 (7) and the LED lamp (5) are mounted on the crossbar (31) of the lamp post, and a plurality of LEDs (63) are arranged on matrix so that they constitute the characters or marks on the address or panel signaling with LED (6), said brightness / dark detection sensor (2) is connected to the central controller (9), said infrared human body detector (7) is connected to the central controller (9), a solar photovoltaic panel (61) is installed in the direction or pan signaling the said solar photovoltaic panel (1 and 61) 15 collects solar energy and when the light is turned on at night, the photovoltaic panel (61) continues to collect light energy from the LED lamp (5), and the photovoltaic panel (1) can be replaced by another kind of energy, and said LED (5) and LED (63) can be replaced by LED chips or any other lighting component. 2. Public streetlight with solar powered LED with automatic light control according to claim 1 which 20 is characterized in that said solar module (11) is connected to the storage battery by accumulator (8) and to the central controller (9) through a diode D1, a switch K2 and a normally closed terminal. 5